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Frequently Asked Questions
PAGE6
Q. What range of finished floor heights (FFH) is available?
A. Using standard pedestals finished floor heights from 70mm to 1200mm are achievable.
Bespoke solutions for lower and higher options are available.
As a general rule above a finished floor height of 600mm stringers will be introduced
to provide additional lateral stability. This will reduce the clear void available
for services by about 30mm.
Q. What is the exact definition of finished floor height?
A. The finished floor height (FFH) is defined as “The nominal vertical
dimension from the specified sub floor level to the specified finished floor
level”.
Q. Why are raised floor voids used as air plenums and what are the important
criteria?
A. In certain circumstances the available space between the underside of the
raised floor panels and the sub floor surface (known as the plenum) will be
used as part of the building’s heating and ventilation system. In these
instances a pressure differential will be created between the air within the
plenum chamber i.e. under the floor, and the air above the floor in the office
environment.
Product considerations
In these situations there are certain attributes of the raised access floor
that become important. The leakage of air through panel joints and at perimeters
will need to be kept within specific parameters for the required air pressure
differential. The air leakage rate through the panel joint line is dependant
on the size of gap between the panels, which is dependant upon the manufactured
quality of the panel edge detail and also the quality of the raised floor installation.
The air leakage at perimeters is also dependant upon the specific detail design
and the quality of the installation.
Air leakage rates
A typical air leakage rate for a raised floor system without a finish i.e. carpet
tiles, would be in the region of 1.0 – 1.2 litres/second/m2 at a pressure
differential of 30 Pa.
Air seals
Where the permitted air leakage rate through the raised access floor complete
with the required floor covering is very low, or the specified air pressure
differential is high, the raised floor in its standard form may not suffice.
In these instances the raised floor panels may be fitted with neoprene or similar
gaskets to their edges in order to form a seal when installed against other
similar panels. Alternatively stringers fitted with gasket seals may be installed
to seal the panel joint lines.
Type testing
The air leakage rate through a raised access floor can be determined by laboratory
testing in order to give indicative air leakage rates through both the panel
joint lines and perimeter detail. This can be undertaken at a project specific
pressure differential or across a range of pressures.
Site testing
Alternatively the raised floor can be tested in its entirety on site, as part
of the installation process. This on site testing can determine not only the
air leakage through the raised floor but also the leakage through the floor
void via other means e.g. incorrectly sealed service penetrations through the
sub floor slab.
Air outlets and distribution
The conditioned air within the floor plenum is delivered into the area above
the floor via a range of outlets. These are usually aluminium grilles of the
same module size as the floor panels. Dampers may be fitted to allow control
of the airflow through individual grilles in order to achieve localised control
to suit specific local requirements. Perforated floor panels can be used again
fitted with dampers if required as an alternative to grilles. A further alternative
is use of smaller circular air diffusers fitted into the floor panels, again
fitted with dampers to allow adjustment locally to suit specific requirements.
All of these air outlets are readily relocated within the raised floor area
as requirements change.
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